// baljsn_simpleformatter.h                                           -*-C++-*-
#ifndef INCLUDED_BALJSN_SIMPLEFORMATTER
#define INCLUDED_BALJSN_SIMPLEFORMATTER

#include <bsls_ident.h>
BSLS_IDENT("$Id: $")

//@PURPOSE: Provide a simple formatter for encoding data in the JSON format.
//
//@CLASSES:
// baljsn::SimpleFormatter: a mechanism to encode data into JSON
//
//@SEE_ALSO: baljsn_encoder, baljsn_formatter, baljsn_printutil
//
//@DESCRIPTION: This component provides a class, `baljsn::SimpleFormatter`, for
// rendering JSON conforming text for objects, arrays, and various scalar
// types.
//
// This component provides an interface that is easier to use, and renders more
// readable "pretty" JSON, than `baljsn::Formatter`.  Clients are encouraged to
// use `baljsn::SimpleFormatter` instead of `baljsn::Formatter` (see
// {Comparison to `baljsn::Formatter`}).
//
// The `SimpleFormatter` `class` also provides the ability to specify
// formatting options at construction.  The options that can be provided
// include the encoding style (compact or pretty), the initial indentation
// level and spaces per level if encoding in the pretty format.
//
///Comparison to `baljsn::Formatter`
///---------------------------------
//
///API Comparison
/// - - - - - - -
// Here is the side-by-side sequence of calls to create the following JSON
// using both components, assuming an existing stream `os`:
// ```
// {
//   "Object" : {
//     "Field 1" : 1,
//     "Field 2" : null
//   },
//   "Array" : [
//     1,
//     "string",
//     [],
//     [
//       [
//         {
//         }
//       ]
//     ]
//   ],
//   "True" : true
// }
// ```
// Some extra indentation has been added in these examples to show the various
// `open`/`close` call nesting levels.
// ```
//          Formatter                |             SimpleFormatter
// -----------------------------------+----------------------------------------
// baljsn::Formatter f(os);           | baljsn::SimpleFormatter sf(os);
//                                   |
// f.openObject();                    | sf.openObject();
//                                   |
// f.openMember("Object");           |  sf.openObject("Object");
//  f.openObject();                  |   sf.addValue("Field 1", 1);
//   f.openMember("Field 1");        |   sf.addNullValue("Field 2");
//    f.putValue(1);                 |  sf.closeObject();
//   f.closeMember();                |
//   f.openMember("Field 2");        |  sf.openArray("Array");
//    f.putNullValue();              |   sf.addValue(1);        // No name
//   // Must remember NOT to call    |   sf.addValue("string"); // No name
//   // closeMember here!            |   sf.openArray(e_EMPTY_ARRAY_FORMAT);
//  f.closeObject();                 |   sf.closeArray(e_EMPTY_ARRAY_FORMAT);
// f.closeMember();                  |   sf.openArray();
//                                   |    sf.openArray();
// f.openMember("Array");            |     sf.openObject();
//  f.openArray();                   |     sf.closeObject();
//   f.putValue(1);                  |    sf.closeArray();
//   f.addArrayElementSeparator();   |   sf.closeArray();
//   f.putValue("string");           |  sf.closeArray();
//   f.addArrayElementSeparator();   |
//   f.openArray(true);              |  sf.addValue("True", true);
//   f.closeArray(true);             | sf.closeObject();
//   f.addArrayElementSeparator();   |
//   f.openArray();                  |
//    f.openArray();                 |
//     f.openObject();               |
//     f.closeObject();              |
//    f.closeArray();                |
//   f.closeArray();                 |
//                                   |
//   // Must remember NOT to call    |
//   // addArrayElementSeparator     |
//   // here!                        |
//  f.closeArray();                  |
// f.closeMember();                  |
//                                   |
// f.openMember("True");             |
//  f.putValue(true);                |
// // Must remember NOT to call      |
// // closeMember here!              |
//                                   |
// f.closeObject();                   |
// -----------------------------------+----------------------------------------
//
// ```
//
///JSON Format
///-----------
// The JSON encoding format (see http://json.org or ECMA-404 standard for more
// information) specifies a self-describing and simple syntax that is built on
// two structures:
//
// * Objects: JSON objects are represented as collections of name value
//   pairs.  The `SimpleFormatter` `class` allows encoding objects by
//   providing the `openObject` and `closeObject` methods to open and close an
//   object and overloads for `openObject`, `openArray`, `addValue` and
//   `addNullValue` which take a `name` to specify the named fields in the
//   object, or the use of the `addMemberName` manipulator followed by the
//   overloads of `openObject`, `openArray`, `addValue`, and `addNullValue`
//   which do not take a name.
// * Arrays: JSON arrays are specified as an ordered list of values.  The
//   `SimpleFormatter` `class` provides the `openArray` and `closeArray`
//   method to open and close an array, as well as overloads for `openObject`,
//   `openArray`, `addValue` and `addNullValue` which do not take a `name` for
//   array elements.
//
// The `SimpleFormatter` `class` provides the ability to specify formatting
// options at construction.  The options that can be provided include the
// encoding style (compact or pretty), the initial indentation level and spaces
// per level if encoding in the pretty format.
//
///Usage
///-----
// This section illustrates intended use of this component.
//
///Example 1: Encoding a Stock Portfolio in JSON
///- - - - - - - - - - - - - - - - - - - - - - -
// Let us suppose we have to encode a JSON document containing information
// about a small portfolio of stocks.  The eventual data we want to encode is
// represented by the following JSON string (which is the expected output of
// the encoding process):
//
// First, we specify the result that we are expecting to get:
// ```
// {
//   const bsl::string EXPECTED =
//       "{\n"
//       "  \"Stocks\" : [\n"
//       "    {\n"
//       "      \"Name\" : \"International Business Machines Corp\",\n"
//       "      \"Ticker\" : \"IBM US Equity\",\n"
//       "      \"Last Price\" : 149.3,\n"
//       "      \"Dividend Yield\" : 3.95\n"
//       "    },\n"
//       "    {\n"
//       "      \"Name\" : \"Apple Inc\",\n"
//       "      \"Ticker\" : \"AAPL US Equity\",\n"
//       "      \"Last Price\" : 205.8,\n"
//       "      \"Dividend Yield\" : 1.4\n"
//       "    }\n"
//       "  ]\n"
//       "}";
// ```
// Then, to encode this JSON document we create a `baljsn::SimpleFormatter`
// object.  Since we want the document to be written in a pretty, easy to
// understand format we will specify `true` for the `usePrettyStyle` option and
// provide an appropriate initial indent level and spaces per level values:
// ```
// bsl::ostringstream      os;
// baljsn::EncoderOptions  encoderOptions;
//
// encoderOptions.setEncodingStyle(baljsn::EncoderOptions::e_PRETTY);
// encoderOptions.setSpacesPerLevel(2);
//
// baljsn::SimpleFormatter formatter(os, encoderOptions);
// ```
// Next, we encode the start of the top level object, and open the first member
// "Stocks" (which holds an array of stock information):
// ```
// formatter.openObject();
// formatter.openArray("Stocks");
// ```
// Next, we render each element within the array of "Stocks" as an object that
// contains information for an individual stock:
// ```
// formatter.openObject();
// ```
// We now encode the other elements in the stock object.
// ```
// formatter.addValue("Name", "International Business Machines Corp");
// formatter.addValue("Ticker", "IBM US Equity");
// formatter.addValue("Last Price", 149.3);
// formatter.addValue("Dividend Yield", 3.95);
// ```
// Then, close the first stock object.
// ```
// formatter.closeObject();
// ```
// Next, we add another stock object.
// ```
// formatter.openObject();
//
// formatter.addValue("Name", "Apple Inc");
// formatter.addValue("Ticker", "AAPL US Equity");
// formatter.addValue("Last Price", 205.8);
// formatter.addValue("Dividend Yield", 1.4);
//
// formatter.closeObject();
// ```
// Similarly, we can continue to format the rest of the document.  For the
// purpose of this usage example we will complete this document.
// ```
// formatter.closeArray();
// formatter.closeObject();
// ```
// Once the formatting is complete the written data can be viewed from the
// stream passed to the formatter at construction.
// ```
// if (verbose)
//     bsl::cout << os.str() << bsl::endl;
// ```
// Finally, verify the received result:
// ```
// assert(EXPECTED == os.str());
// }
// ```
//
///Example 2: Encoding an array
///- - - - - - - - - - - - - - -
// Let us say we want to encode an array of various values.
//
// First, we create our `formatter` as we did above:
// ```
// {
//   bsl::ostringstream      os;
//   baljsn::EncoderOptions  encoderOptions;
//
//   encoderOptions.setEncodingStyle(baljsn::EncoderOptions::e_PRETTY);
//   encoderOptions.setSpacesPerLevel(2);
//
//   baljsn::SimpleFormatter formatter(os, encoderOptions);
// ```
// Then we open our array.
// ```
// formatter.openArray();
// ```
// Next, we populate the array with a series of unnamed values.  Named values
// are only used in objects, not arrays.
// ```
// formatter.addValue("First value");
// formatter.addValue(2);
// formatter.addValue(3);
// ```
// Then, we demonstrate that arrays can be nested, opening another level of
// array, populating it, and closing it:
// ```
// formatter.openArray();
// formatter.addValue("First value of inner array");
// formatter.addValue(3.14159);
// formatter.closeArray();
// ```
// Arrays can also contain (unnamed) objects:
// ```
// formatter.openObject();
// ```
// Next, we add (named) values to our object:
// ```
// formatter.addValue("Greeting", "Hello from the first inner object");
// formatter.addValue("PI approximation", 3.14);
// // We could, similarly, add nested named objects and/or named arrays
// ```
// Then we close the nested object:
// ```
// formatter.closeObject();
// ```
// Finally, we close the outer array:
// ```
// formatter.closeArray();
// }
// ```

#include <balscm_version.h>

#include <baljsn_encoderoptions.h>
#include <baljsn_printutil.h>

#include <bdlb_print.h>

#include <bdlc_bitarray.h>

#include <bsl_ostream.h>

#include <bslma_allocator.h>
#include <bslma_usesbslmaallocator.h>

#include <bslmf_nestedtraitdeclaration.h>

#include <bsls_assert.h>
#include <bsls_review.h>

#include <bsl_string_view.h>

namespace BloombergLP {
namespace baljsn {

class EncoderOptions;

                           // =====================
                           // class SimpleFormatter
                           // =====================

/// This class implements a formatter providing operations for rendering
/// JSON text elements to an output stream (supplied at construction)
/// according to a set of formatting options (also supplied at
/// construction).
///
/// This class has an interface that's easier to use than that of
/// `baljsn::Formatter`, and generates more correctly-formatted `pretty`
/// output.
class SimpleFormatter {

  public:
    // TYPES
    enum ArrayFormattingStyle {
        // This 'enum' lists all possible array formatting styles.
        e_REGULAR_ARRAY_FORMAT = 1,
        e_EMPTY_ARRAY_FORMAT
    };

  private:
    // DATA
    bsl::ostream&     d_outputStream;        // stream for output (held, not
                                             // owned)

    bool              d_useComma;            // whether next start item
                                             // ('add*', 'open*') needs a
                                             // preceding comma

    bool              d_started;             // whether we've formatted at
                                             // least one element

    bool              d_memberNameSupplied;  // whether the previous output
                                             // operation was 'addMemberName'

    bdlc::BitArray    d_callSequence;        // array specifying the sequence
                                             // in which the 'openObject' and
                                             // 'openArray' methods were
                                             // called.  An 'openObject' call
                                             // is represented by 'false' and
                                             // an 'openArray' call by 'true'.

    EncoderOptions    d_encoderOptions;      // formatting and encoding
                                             // options

    int               d_indentLevel;         // current indent level

    // PRIVATE MANIPULATORS

    /// Unconditionally print onto the stream supplied at construction the
    /// sequence of whitespace characters for the proper indentation of an
    /// element at the current indentation level.  Note that this method
    /// does not check that `usePrettyStyle()` is `true` before indenting.
    void indent();

    /// If `d_useComma` is `true`, print a comma.  If `usePrettyStyle()` is
    /// also `true`, also print a newline.  This also sets
    /// `d_memberNameSupplied` to `false`.
    void printComma();

    /// Set `d_useComma` to the value of the specified `flag`, indicating
    /// whether the next `printComma()` call should actually print a comma.
    void followWithComma(bool flag);

    /// Print onto the stream supplied at construction the specified `name`,
    /// followed by a `:`. The `:` is surrounded by a space on each side if
    /// `usePrettyStyle()` is `true`.  It is the caller's responsibility to
    /// call `printComma()` - this routine does not handle commas, but does
    /// call `indent()` if necessary.
    void printName(const bsl::string_view& name);

    // PRIVATE ACCESSORS

    /// Return `true` if `e_PRETTY == d_encoderOptions.encodingStyle()`.
    bool usePrettyStyle() const;

    /// Return `d_encoderOptions.spacesPerLevel()`.
    int spacesPerLevel() const;

  public:
    // TRAITS
    BSLMF_NESTED_TRAIT_DECLARATION(SimpleFormatter,
                                   bslma::UsesBslmaAllocator);

    // CREATORS

    /// Create a `SimpleFormatter` object using the specified `stream`.
    /// Optionally specify `encoderOptions` to configure the output options
    /// - if `encoderOptions` is not supplied, a default-constructed
    /// `EncoderOptions` object will be used.  Note that the
    /// `encodeEmptyArrays` attribute in the `encoderOptions` is ignored.
    /// Optionally specify a `basicAllocator` used to supply memory.  If
    /// `basicAllocator` is 0, the currently installed default allocator is
    /// used.
    explicit SimpleFormatter(bsl::ostream&          stream,
                             bslma::Allocator      *basicAllocator = 0);
    explicit SimpleFormatter(bsl::ostream&          stream,
                             const EncoderOptions&  encoderOptions,
                             bslma::Allocator      *basicAllocator = 0);

    /// Create a `SimpleFormatter` object having the same value as the
    /// specified `original` object.  Optionally specify a `basicAllocator`
    /// used to supply memory.  If `basicAllocator` is 0, the currently
    /// installed default allocator is used.
    SimpleFormatter(const SimpleFormatter&  original,
                    bslma::Allocator       *basicAllocator);

    /// Destroy this object.  Note that correct JSON has been generated if
    /// the `isCompleteJSON()` call returns `true`.
    ~SimpleFormatter();

    // MANIPULATORS

    /// Print onto the stream supplied at construction the sequence of
    /// characters designating the start of an object (referred to as an
    /// "object" in JSON), preceded, if necessary, by a comma.  The behavior
    /// is undefined unless `isNameNeeded()` is `false`.
    void openObject();

    /// Print onto the stream supplied at construction the sequence of
    /// characters designating the start of an object (referred to as an
    /// "object" in JSON) with the specified `name` , preceded, if
    /// necessary, by a comma.  The behavior is undefined unless
    /// `isNameNeeded()` is `true`.
    void openObject(const bsl::string_view& name);

    /// Print onto the stream supplied at construction the specified `name`
    /// in double-quotes, preceded, if necessary, by a comma, and followed
    /// by a `:`.  The behavior is undefined unless `isNameNeeded()` is
    /// `true`.  After this operation, `isNameNeeded()` will be `false`, and
    /// an immediately subsequent attempt to add a value (or open an object
    /// or array) should not provide a name.
    void addMemberName(const bsl::string_view& name);

    /// Print onto the stream supplied at construction the sequence of
    /// characters designating the end of an object (referred to as an
    /// "object" in JSON).  The behavior is undefined unless
    /// `isNameNeeded()` is `true`.
    void closeObject();

    /// Print onto the stream supplied at construction the sequence of
    /// characters designating the start of an array (referred to as an
    /// "array" in JSON), preceded, if necessary, by a comma.  Optionally
    /// specify `formattingStyle` denoting if the array being opened should
    /// be formatted as an empty array.  If `formattingStyle` is not
    /// specified then the array being opened is formatted as a regular
    /// array having elements.    The behavior is undefined unless
    /// `isNameNeeded()` is `false`.  Note that the formatting (and as a
    /// consequence the `formattingStyle`) is relevant only if this
    /// formatter encodes in the pretty style and is ignored otherwise.
    void openArray(
                ArrayFormattingStyle formattingStyle = e_REGULAR_ARRAY_FORMAT);

    /// Print onto the stream supplied at construction the sequence of
    /// characters designating the start of an array (referred to as an
    /// "array" in JSON) with the specified `name`, preceded, if necessary,
    /// by a comma.  Optionally specify `formattingStyle` denoting if the
    /// array being opened should be formatted as an empty array.  If
    /// `formattingStyle` is not specified then the array being opened is
    /// formatted as a regular array having elements.  The behavior is
    /// undefined unless `isNameNeeded()` is `true`.  Note that the
    /// formatting (and as a consequence the `formattingStyle`) is relevant
    /// only if this formatter encodes in the pretty style and is ignored
    /// otherwise.
    void openArray(
            const bsl::string_view& name,
            ArrayFormattingStyle    formattingStyle = e_REGULAR_ARRAY_FORMAT);

    /// Print onto the stream supplied at construction the sequence of
    /// characters designating the end of an array (referred to as an
    /// "array" in JSON).  Optionally specify `formattingStyle` denoting if
    /// the array being closed should be formatted as an empty array.  If
    /// `formattingStyle` is not specified then the array being closed is
    /// formatted as a regular array having elements.  The behavior is
    /// undefined if `isFormattingArray()` is `false`.  Note that the
    /// formatting (and as a consequence the `formattingStyle`) is relevant
    /// only if this formatter encodes in the pretty style and is ignored
    /// otherwise.
    void closeArray(
                ArrayFormattingStyle formattingStyle = e_REGULAR_ARRAY_FORMAT);

    /// Print onto the stream supplied at construction the value
    /// corresponding to a null element, preceded, if necessary, by a comma.
    /// The behavior is undefined unless `isNameNeeded()` is `false`.
    void addNullValue();

    /// Print onto the stream supplied at construction the value
    /// corresponding to a null element with the specified `name`, preceded,
    /// if necessary, by a comma.  The behavior is undefined unless
    /// `isNameNeeded()` is `true`.
    void addNullValue(const bsl::string_view& name);

    /// Print onto the stream supplied at construction the specified
    /// `value`, preceded, if necessary, by a comma, passing the optionally
    /// specified `options` through to the rendering routines.  Return 0 on
    /// success and a non-zero value otherwise.  The behavior is undefined
    /// unless `isNameNeeded()` is `false`.
    template <class TYPE>
    int addValue(const TYPE& value);

    /// Print onto the stream supplied at construction the specified `name`
    /// and the specified `value`, preceded, if necessary, by a comma,
    /// passing the optionally specified `options` through to the rendering
    /// routines.  Return 0 on success and a non-zero value otherwise.  The
    /// behavior is undefined unless `isNameNeeded()` is `true`.
    template <class TYPE>
    int addValue(const bsl::string_view& name, const TYPE& value);

    // ACCESSORS

    /// Return `true` if this `SimpleFormatter` has formatted a complete
    /// JSON object, where all `open*` calls have been balanced by their
    /// corresponding `close*` calls.  Note that a default-constructed
    /// `SimpleFormatter` will return `false` - an empty string is not valid
    /// JSON.
    bool isCompleteJSON() const;

    /// Return `true` if this `SimpleFormatter` is currently formatting an
    /// array and `false` otherwise.  It is formatting an array if the last
    /// `open*` method overload (`openArray` or `openObject`) called on this
    /// `SimpleFormatter` for which the corresponding `close*` method
    /// (respectively, `closeArray` or `closeObject`) was `openArray`.  If
    /// `isFormattingArray()` is `true`, then `isFormattingObject()` is
    /// `false`.  Note that both can be `false`, at the `top-level` initial
    /// scope before anything is added/opened or after the first `open*`
    /// call has been closed'
    bool isFormattingArray() const;

    /// Return `true` if this `SimpleFormatter` is currently formatting an
    /// object scope  and `false` otherwise.  It is formatting an object
    /// scope if the last `open*` method overload (`openArray` or
    /// `openObject`) called on this `SimpleFormatter` for which the
    /// corresponding `close*` method (respectively, `closeArray` or
    /// `closeObject`) was `openObject`.  If `isFormattingObject()` is
    /// `true`, then `isFormattingArray()` is `false`.  Note that both can
    /// be `false`, at the `top-level` initial scope before anything is
    /// added/opened or after the first `open*` call has been closed'
    /// JSON.
    bool isFormattingObject() const;

    /// Return `true` if a subsequent attempt to add a value must supply a
    /// `name`, and `false` otherwise.  This will be `true` if
    /// `isFormattingObject()` is `true`, and `addMemberName()` was not the
    /// most recently called manipulator.  That is, a name is needed if this
    /// formatter is currently in the context of formatting the members of a
    /// JSON object, and `addMemberName` has not been called to explicitly
    /// provide a name for the next member.
    bool isNameNeeded() const;

    // Aspects

    /// Return the allocator used by this object to supply memory.  Note
    /// that if no allocator was supplied at construction the currently
    /// installed default allocator is used.
    bslma::Allocator *allocator() const;
};

// ============================================================================
//                            INLINE DEFINITIONS
// ============================================================================

                        // ---------------
                        // class SimpleFormatter
                        // ---------------

// PRIVATE MANIPULATORS
inline
void SimpleFormatter::followWithComma(bool flag)
{
    d_useComma = flag;
}

inline
void SimpleFormatter::indent()
{
    bdlb::Print::indent(d_outputStream, d_indentLevel, spacesPerLevel());
}

inline
void SimpleFormatter::printComma()
{
    d_started = true;

    if (d_useComma) {
        d_outputStream << ',';

        if (usePrettyStyle()) {
            d_outputStream << '\n';
        }
    }

    d_memberNameSupplied = false;
}

inline
void SimpleFormatter::printName(const bsl::string_view& name)
{
    if (usePrettyStyle()) {
        indent();
    }

    const int rc = PrintUtil::printValue(d_outputStream,
                                         name,
                                         &d_encoderOptions);
    if (rc) {
        return;                                                       // RETURN
    }

    d_outputStream << (usePrettyStyle() ? " : " : ":");
}

// PRIVATE ACCESSORS
inline
int SimpleFormatter::spacesPerLevel() const
{
    return d_encoderOptions.spacesPerLevel();
}

inline
bool SimpleFormatter::usePrettyStyle() const
{
    return EncoderOptions::e_PRETTY == d_encoderOptions.encodingStyle();
}

// MANIPULATORS
inline
void SimpleFormatter::addMemberName(const bsl::string_view& name)
{
    BSLS_ASSERT(isNameNeeded());

    printComma();
    followWithComma(false);

    printName(name);

    d_memberNameSupplied = true;
}

inline
void SimpleFormatter::addNullValue()
{
    BSLS_ASSERT(!isNameNeeded());

    bool needIndent = usePrettyStyle() && !d_memberNameSupplied;

    printComma();
    followWithComma(true);

    if (needIndent) {
        indent();
    }

    d_outputStream << "null";
}

inline
void SimpleFormatter::addNullValue(const bsl::string_view& name)
{
    BSLS_ASSERT(isNameNeeded());

    printComma();
    followWithComma(true);

    printName(name);

    d_outputStream << "null";
}

template <class TYPE>
int SimpleFormatter::addValue(const TYPE& value)
{
    BSLS_ASSERT(!isNameNeeded());

    bool needIndent = usePrettyStyle() && !d_memberNameSupplied;

    printComma();
    followWithComma(true);

    if (needIndent) {
        indent();
    }

    return baljsn::PrintUtil::printValue(
        d_outputStream, value, &d_encoderOptions);
}

template <class TYPE>
int SimpleFormatter::addValue(const bsl::string_view& name, const TYPE& value)
{
    BSLS_ASSERT(isNameNeeded());

    printComma();
    followWithComma(true);

    printName(name);

    return baljsn::PrintUtil::printValue(
        d_outputStream, value, &d_encoderOptions);
}

// ACCESSORS
inline
bool SimpleFormatter::isCompleteJSON() const
{
    return d_started && (1 == d_callSequence.length());
}

inline
bool SimpleFormatter::isFormattingArray() const
{
    BSLS_ASSERT(d_callSequence.length() >= 1);

    return d_callSequence.length() > 1 &&
           d_callSequence[d_callSequence.length() - 1];
}

inline
bool SimpleFormatter::isFormattingObject() const
{
    BSLS_ASSERT(d_callSequence.length() >= 1);

    return d_callSequence.length() > 1 &&
           !d_callSequence[d_callSequence.length() - 1];
}

inline
bool SimpleFormatter::isNameNeeded() const
{
    return isFormattingObject() && !d_memberNameSupplied;
}

                                  // Aspects

inline
bslma::Allocator *SimpleFormatter::allocator() const
{
    return d_callSequence.allocator();
}

}  // close package namespace

}  // close enterprise namespace

#endif

// ----------------------------------------------------------------------------
// Copyright 2019 Bloomberg Finance L.P.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
//     http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
// ----------------------------- END-OF-FILE ----------------------------------
